Foraging energetics of arctic cormorants and the evolution of diving birds

Abstract

Efficient body insulation is assumed to have enabled birds and mammals to colonize polar aquatic ecosystems. We challenge this concept by comparing the bioenergetics of cormorants (Phalamocorax carbo) living in temperate and arctic conditions. We show that although these birds have limited insulation, they maintain high body temperature (42.3 degreesC) when diving in cold water (1-10 degreesC). Their energy demand at these times is extremely high (up to 60 W kg(-1)). Free-living cormorants wintering in Greenland (water temperature -1 degreesC) profoundly alter their foraging activity, thus minimizing time spent in water and the associated high thermoregulatory costs. They then meet their daily food demand within a single intense dive bout (lasting 9 min on average). Their substantial energy requirements are balanced by the highest predatory efficiency so far recorded for aquatic predators. We postulate that similar behavioural patterns allowed early diving birds (Cretaceous) to colonize cold coastal areas before they evolved efficient insulation.

title = "Foraging energetics of arctic cormorants and the evolution of diving birds",

abstract = "Efficient body insulation is assumed to have enabled birds and mammals to colonize polar aquatic ecosystems. We challenge this concept by comparing the bioenergetics of cormorants (Phalamocorax carbo) living in temperate and arctic conditions. We show that although these birds have limited insulation, they maintain high body temperature (42.3 degreesC) when diving in cold water (1-10 degreesC). Their energy demand at these times is extremely high (up to 60 W kg(-1)). Free-living cormorants wintering in Greenland (water temperature -1 degreesC) profoundly alter their foraging activity, thus minimizing time spent in water and the associated high thermoregulatory costs. They then meet their daily food demand within a single intense dive bout (lasting 9 min on average). Their substantial energy requirements are balanced by the highest predatory efficiency so far recorded for aquatic predators. We postulate that similar behavioural patterns allowed early diving birds (Cretaceous) to colonize cold coastal areas before they evolved efficient insulation.",

T1 - Foraging energetics of arctic cormorants and the evolution of diving birds

AU - Gremillet, D.

AU - Wanlass, S.

AU - Harris, M. P.

AU - Carss, D.

AU - Speakman, John Roger

AU - le Maho, Y.

AU - Linton, D.

PY - 2001

Y1 - 2001

N2 - Efficient body insulation is assumed to have enabled birds and mammals to colonize polar aquatic ecosystems. We challenge this concept by comparing the bioenergetics of cormorants (Phalamocorax carbo) living in temperate and arctic conditions. We show that although these birds have limited insulation, they maintain high body temperature (42.3 degreesC) when diving in cold water (1-10 degreesC). Their energy demand at these times is extremely high (up to 60 W kg(-1)). Free-living cormorants wintering in Greenland (water temperature -1 degreesC) profoundly alter their foraging activity, thus minimizing time spent in water and the associated high thermoregulatory costs. They then meet their daily food demand within a single intense dive bout (lasting 9 min on average). Their substantial energy requirements are balanced by the highest predatory efficiency so far recorded for aquatic predators. We postulate that similar behavioural patterns allowed early diving birds (Cretaceous) to colonize cold coastal areas before they evolved efficient insulation.

AB - Efficient body insulation is assumed to have enabled birds and mammals to colonize polar aquatic ecosystems. We challenge this concept by comparing the bioenergetics of cormorants (Phalamocorax carbo) living in temperate and arctic conditions. We show that although these birds have limited insulation, they maintain high body temperature (42.3 degreesC) when diving in cold water (1-10 degreesC). Their energy demand at these times is extremely high (up to 60 W kg(-1)). Free-living cormorants wintering in Greenland (water temperature -1 degreesC) profoundly alter their foraging activity, thus minimizing time spent in water and the associated high thermoregulatory costs. They then meet their daily food demand within a single intense dive bout (lasting 9 min on average). Their substantial energy requirements are balanced by the highest predatory efficiency so far recorded for aquatic predators. We postulate that similar behavioural patterns allowed early diving birds (Cretaceous) to colonize cold coastal areas before they evolved efficient insulation.